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A complete catalogue is provided for the type specimens of amphibians and reptiles collected by Nikolay A. Zarudny and stored mostly in the herpetological collection of the Zoological Institute, Russian Academy of Sciences, St. Petersburg, Russia (ZISP), as of August 2018. The collection contains 270 type specimens, representing 51 taxa (species and/or subspecies) of one family of turtles, one amphisbaenia family, five lizard families and four snake families from 74 type localities. As a result of studying Zarudny’s collections, mainly from Iran, was the description by A. M. Nikolsky of two new genera, Microgecko and Diplometopon, and 42 species and subspecies (varieties). Twenty-two of these taxa are regarded currently as valid.

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Skeletochronological study of Eremias strauchi (n =18) has shown equable pattern of growth. The lizards under study reach sexual maturity after the 1st or 2nd year of life and have two clutches. Maximum age for the studied sample was 4–5 years.

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In the herpetological collection of ZFMK 528 scientific species group names are represented by type materi- al. Of these, 304 names are documented by primary type specimens (onomatophores) while for 224 further names sec- ondary type specimens (typoids) are available, ranging chronologically from 1801 to 2010. The list is a shortened pred- ecessor of a comprehensive type catalogue in progress. It lists name bearing types with their catalogue numbers includ- ing information on further type series members also in other institutions, while secondary types are listed only by pres- ence, both in ZFMK and other collections including holotype repositories. Geographic origin and currently valid names are also provided.

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The reptile and mammals fauna of North-East of Iran were investigated and the contraction and fragmentation of some species due to climatic changes and human activities were analyzed. The sampling was carried out in selected stations throughout the Great Khorsan. The results showed that there are approximately 71 reptiles (including 39 species of lizards, 32 snakes and one turtle) and 83 species of mammals. The exact number of vulnerable and threatened reptile and mammal species in Khorasan provinces is not clear, but there are at least 33 reptiles and 10 mammals categorized as threatened species. The distribution and population size of some species has greatly changed during recent years, most probably as a result of recent global warming, i. e. temperature rise, decrease of precipitation, drought and human harmful activities. The human activity in this region, especially urbanization, agricultural activities and cutting of shrubs has caused fragmentation and serious decline of population size in some species and even elimination of some local endemic population of relict species. The conservation of mammals and reptiles in the North-East of Iran demands organized collaborations including education of native people for protection of valuable vertebrate faunae of the area.

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Karyological studies were conducted using bone marrow cell preparations from four species of Lacertidae and Scincidae from Iran: Eremias persica Blanford, Eremias kopetdaghica Szczerbak, Ophisops elegans Ménétries (Lacertidae), and Eumeces schneiderii princeps (Eichwald) (Scincidae). Eremias persica was diploid with 2n = 38 chromosomes. The karyotype consisted of eighteen pairs of acrocentric macrochromosomes and two microchromosomes. Eremias kopetdaghica was also diploid with 2n = 38 comprising one pair of metacentric macrochromosomes, seventeen pairs of acrocentric macrochromosomes, and one pair of microchromosomes. The chromosome count for these two species is reported for the first time herein. The chromosome count for Ophisops elegans (2n = 38) was in agreement with a previous report and was the first for the herpetofauna of Iran. Eumeces schneiderii princeps showed 32 macro- and microchromosomes, representing the first report for this subspecies.

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The aim of this study is to detect areas of endemism in lizards in Iran. This is the first study of its kind focusing on this subject. Areas of endemism for two families of lizards (Lacertidae and Gekkonidae) that have the highest number of endemic species than other lizard families in Iran were identified by Parsimony Analysis of Endemicity (PAE). Distribution data were collected from previous studies on the Iranian lizards and also from the recent literature on the descriptions of new endemic species. A total of 81 species of lizards were available for analysis. The study area was divided into a 2° × 2° grid of 63 Operational Geographic Units (OGUs). PAE was applied to the data matrix to detect areas of endemism and detected eight areas of endemism in southwestern Iran and near the Persian Gulf. Southern Iran is the main region where most species from Arabia came into Iran and were stopped in their dispersal. Two grids in southern and northeastern Iran were recognized as the areas with the highest density of species in the studied families. Lacertidae and Gekkonidae did not have a shared endemic species in the region (cells 59 and 60) but the area of endemism identified by PAE in the Persian Gulf region suggests that exchange between Iranian and Arabian herpetofauna was very high during interglacial periods. The distribution pattern of the endemic species of these families is concentrated in the region of the Alborz and the Zagros Mountains, but the single area of endemism in southern Iran has an important role in the historical biogeography of the Iranian herpetofauna. During interglacial periods, the Persian Gulf acted as a corridor between the herpetofauna of the two sides and this suggests the importance of this area of endemism for the Gekkonidae family. Also, the OGUs with the highest density of species are located around the country and, the lowest density is in the Central Plateau. PAE detected eight areas of endemism in southwestern Iran, but according to the number of species per units, two OGUs can be identified as high density in northeastern and southern Iran.

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Eremias strauchi strauchi and Eremias strauchi kopetdaghica are genetically and morphologically distinct and are distributed allopatrically in northeastern and northwestern Iran. E. s. strauchi is distinguishable by having green spots on lateral parts of the body, while E. s. kopetdaghica is characterized by white spots and irregular black dots on lateral parts of the body. Recent molecular studies have suggested that these are two distinct species, but other types of analyses leave their classification unclear. In this study, we evaluated their taxonomic status using additional data (including ecological niches) to confirm the hypothesis that they are two species. All known records of their occurrence were employed to predict and evaluate the suitable areas where they may be expected to be found in Iran. We then performed niche similarity tests (niche identity and background tests) and point-based analyses to compare their ecological niches and explain ecological differentiation. Niche models of E. s. strauchi and E. s. kopetdaghica had good results and powerful performance based on high area under the curve (AUC) values [E. s. strauchi = 0.992, standard deviation (SD) = ± 0.008; E. s. kopetdaghica = 0.978, SD = ± 0.032]. Ecological differentiation has been found across the entire range, indicating that ecological differentiation had an important role in species differentiation. Environmental conditions for the species diverged along environmental variables, as precipitation of coldest quarter for the “Strauch” subspecies and precipitation of warmest quarter for the “Kopet dagh” subspecies were most important in determining habitat suitability, respectively. These two factors are important in niche differentiation between the two species and influenced their genetic divergence. Finally, our results confirmed the niche differentiation between E. s. strauchi and E. s. kopetdaghica and added new insights into the taxonomic distinction between E. s. strauchi and E. s. kopetdaghica.

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Little is known about altitudinal distribution of lizards in Iran. In the present study we studied distribution pattern of members of family Lacertidae along the eleveatinal gradient in Iran. To determine environmental drivers of distribution pattern of 48 lizard species, all known valid members of family Lacertidae, along elevational gradient in Iran. Firstly, we classified Iran digital elevation model (DEM) based on 100m intervals, that resulted in 56 altitudinal bands and number of species in each band was recorded. Secondly, we extracted mean value of following variables; altitude, slop, area, solar radiation index (SRI), normalized differences vegetation index (NDVI), annual precipitation, precipitation of wettest month, precipitation of driest month precipitation, precipitation of wettest quarter, precipitation of driest quarter, and precipitation of warmest quarter, and using VIF measure correlated variables were removed. Finally, we performed a multiple regression and found that area and precipitation of warmest quarter are the most important drivers of distribution pattern of family Lacertidae along elevational gradient in Iran. General distribution pattern of family Lacertidae was unimodal and maximum number of species living from 1475 m to 1675 m.

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Spatial gradients of species richness can be shaped by the interplay between historical and ecological factors. They might interact in particularly complex ways in heterogeneous mountainous landscapes with strong climatic and geological contrasts. We mapped the distribution of 171 lizard species to investigate species richness patterns for all species (171), diurnal species (101), and nocturnal species (70) separately. We related species richness with the historical (past climate change, mountain uplifting) and ecological variables (climate, topography and vegetation). We found that assemblages in the Western Zagros Mountains, north eastern and north western parts of Central Iranian Plateau have the highest number of lizard species. Among the investigated variables, annual mean temperature explained the largest variance for all species (10%) and nocturnal species (31%). For diurnal species, temperature change velocity shows strongest explained variance in observed richness pattern (26%). Together, our results reveal that areas with annual temperature of 15–20 °C, which receive 400–600 mm precipitation and experienced moderate level of climate change since the Last Glacial Maximum (LGM) have highest number of species. Documented patterns of our study provide a baseline for understanding the potential efect of ongoing climate change on lizard diversity in Iran.

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The etymology of the reptiles, especially the lizards of Iran has not been completely presented in other published works. Iran is a very active geographic area for any animals, and more especially for lizards, due to its wide range deserts and ecology. We have attempted to ascertain, as much as possible, the construction of the Latin binomials of all Iranian lizard species. We believe that a review of these names is instructive, not only in codifying many aspects of the biology of the lizards, but in presenting a historical overview of collectors and taxonomic work in Iran and Middle East region. We have listed all recorded lizards of Iran according to the order of the scientific names in the book of Anderson, The Lizards of Iran. All lizard species and types have been grouped under their proper Families, and then they have been alphabetically ordered based on their scientific binominal nomenclature. We also examined numerous published works in addition to those included in the original papers presenting each binomial.

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The reptile`s fauna of Sabzevar was investigated during 10 years (2003-2013). In total 42 species belonging to 29 genera, 13 families and two orders (Squamata and Testudines) were collected and identified. The most diverse group in the area is lizards with 23 species, followed by snakes with 18 species and the testudines with one species. The most diverse families are Colubridae, Lacertidae with 8 and Gekkonidae with 5 species respectively, followed by Agamidae with 4 species, Viperidae, Boidae and Scincidae with 3 species each, Lamrophiidae and Spherodactylidae with 2 species and 4 families Elapidae, Thyphlopidae, Varanidae and Testudonidae with only one species each.

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Strauch`s Racerunner, Eremias strauchi, is represented by two subspecies, Eremias strauchi strauchi Kessler, 1878 and Eremias strauchi kopetdaghica Szczerbak, 1972, occurring in opposite margins on the northern Iranian Plateau. We sequenced 3926 base pairs of nuclear and mitochondrial DNA from 16 samples of Eremias strauchi, Eremias lalezharica and Eremias velox collected from northeastern, northwestern and southern Iran. Phylogenetic analyses revealed that Eremias lalezharica is sister to Eremias strauchi kopetdaghica and caused the currently recognised species Eremias strauchi to be paraphyletic. According to the estimated genetic distances in the mitochondrial fragments among the lineages, E. s. strauchi diverged from E. s. kopetdaghica and E. lalezharica with a mean genetic distance of 14.0% and 13.9% respectively. Our data indicate enough molecular divergence between the two currently recognised subspecies of E. strauchi and justify upgrading them to full species level as Eremias strauchi (for the north-western clade) and Eremias kopetdaghica (for the north-eastern clade).

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An updated checklist of the herpetofauna of Iran is presented based on records of amphibian and reptile species whose presence has been confirmed in Iran as a result of extensive field expeditions, examination of herpetological collections, literature review, and personal communications from researchers. The herpetofauna of Iran consists of 13 species and five subspecies of frogs and toads belonging to five genera and four families, eight species of salamanders belonging to four genera and two families, nine species and six subspecies of turtles, terrapins and tortoises belonging to nine genera and six families, one species of crocodile, one species of amphisbaenian, more than 125 species of lizards belonging to 36 genera and eight families as well as 79 species of snakes belonging to 37 genera and six families

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Der Nordosten Irans, ein faszinierendes Gebiet, einerseits durch die immense Ausdehnung arider (Hoch-) Ebenen und Hügelländer, andererseits durch die überraschende landschaftliche Vielfalt unmittelbar südlich des Kaspischen Meeres. So kontrastieren die beeindruckend dichten Hyrcanischen Wälder und das über 5000 m hohe Elburs-Gebirge die endlosen, staubtrockenen Weiten im Landesinneren. Dementsprechend groß ist auch die dortige Artenvielfalt: Knapp 60 Reptilien- und Amphibienarten konnten im Zuge der 14-tägigen Exkursion auf der 4000 km langen Rundtour beobachtet werden.

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We present an annotated checklist for a total 241 reptiles and 22 amphibians including 5 frogs, 9 toads, 7 newts and salamanders, 1 crocodile, 1 worm lizard, 148 lizards, 79 snakes and 12 turtles and tortoises, includes the most scientific literature up to August 2014 and also based on several field surveys conducted in different Provinces of Iran from 2009 to 2014. We present an up-to-dated checklist of reptiles and amphibians in Iran. We provide a comprehensive listing of taxonomy, names, distribution and conservation status of all amphibians and reptiles of Iran. This checklist includes all recognized named taxa, English names for classes, orders, families, species, subspecies along with Persian names for species, including indication of native and introduced species. For the first time we report two non-native introduced reptiles from natural habitats of Iran. Of the total 22 species of amphibians in Iran, 6 (27.2%) are endemic and of the total 241 species of reptiles, 55 (22.8%) are endemic. Of the 22 amphibians species in Iran, 3 (13%) are Critically Endangered, 2 (9%) are Vulnerable and of the 241 reptile species 3 (1.2%) are Critically Endangered, 4 (1.6%) are Endangered and 10 (4.1%) are Vulnerable. Accordingly, this paper combines significant aspects of taxonomy, common names, conservation status and distribution of the Iranian herpetofauna.

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The herpetological map presented in this paper shows the distribution and abundance of the reptiles in Turkmenistan. The country is divided into 17 complexes and the 84 species and subspecies found in Turmkmeistan are listed as occurring in mountains, plains, or both.

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The latest changes in the taxonomy of amphibians and reptiles are analyzed in the work, among them, in particular, toads, frogs, tortoises, geckoes, agamas, lacertids, boas and colubrids. A new list is published, which provides information for 100 species and subspecies: 6 species of amphibians and 94 species of reptiles (6 turtles, 58 lizards, 30 snakes). The conservation status of reptiles in Turkmenistan was revised according to the IUCN assessments.

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We present a comprehensive summary of the distribution of the lizards of Iran accompanied by an annotated checklist. The updated maps of distribution of all 146 species of 41 genera of 11 families are based on all available bibliographic records, catalogues of museum collections and our own field observations. The final dataset used for the distribution maps contains 8525 georeferenced records and cover 41% of the country when plotted on a grid of 0.25° × 0.25° resolution. The dataset is publicly accessible through GBIF portal (http://www.gbif.org/dataset/7db4f705-61ae-4c6e-9de2-06674e7d46b2). Following the latest biogeographic division of the country, ~53% of the species (76 species) inhabit the Iranian Province, ~41% (60 species) the Western Asian mountain transition zone, ~9% (13 species) the Turanian Province, and ~18% (27 species) the Arabian Province. In addition, ~2% (3 species) reach Iran from the Indo-Malay biogeographic region and ~2% (3 species) are believed to have been introduced to Iran by humans. Endemic species (46) represent ~32% of the known species diversity. The most species-rich family of lizards in Iran is Lacertidae with 47 species, followed by Gekkonidae (41), Agamidae (18), Scincidae (15), Phyllodactylidae (10), Sphaerodactylidae (4), Eublepharidae and Uromastycidae (3), Anguidae and Varanidae (2), and Trogonophidae with one representative.

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This article gives a complete overview about the reptiles of western Turkmenistan and their zoogeographical relation. The data were obtained by several expeditions during the last years and completed by compilation of the specific herpetological literature about this area. Ten general landscape units are described along a profile from the Central Karakum desert throughout the Malyi Balkhan chains, the Kyurendag Corridor, the Western Kopetdagh to the state border of Iran. The mountain and plain reptile fauna is analyzed. After discussing the faunal element composition of various landscapes, the Western Kopetdagh was included into the South-West Asian province while the Turanian plain and the Malyi Balkhan were included into the Turanian province of the Palearctic.